Article: Evaluating strong, weak and hybrid formulations of the single stage capacitated warehouse location problem Journal: International Journal of Operational Research (IJOR) 2014 Vol.20 No.2 pp.156 - 179 Abstract: Lower bound (LB) of weak formulation of single stage capacitated warehouse location problem (SSCWLP) has low strength when compared to that of the strong formulation. Hence, the overall computational time to solve the weak formulation of SSCWLP is very high. Strong formulation take lesser branch-and-bound (B&B) nodes to solve SSCWLP but at the cost of higher computational time for linear programming (LP) relaxation at each node. Thus a trade-off is required, leading to the hybrid formulation, containing better characteristics of strong and weak formulations. Most promising constraints are utilised to reduce computational effort. Extensive computational experiments show that significantly superior LB are obtained by hybrid formulation compared to those obtained from weak formulation while significantly less computational time is taken for solving the LP relaxation compared to that taken by strong formulation. The gain in reduction of computational time using reformulation outweighs the cost of expanding the earlier formulation. Inderscience Publishers - linking academia, business and industry through research

Title: Evaluating strong, weak and hybrid formulations of the single stage capacitated warehouse location problem

Authors: R.R.K. Sharma; G.C. Mouli; Mayank Verma; Priyanka Verma

Addresses: Department of Industrial and Management Engineering, Indian Institute of Technology, Kanpur, U.P. 208016, India ' Department of Industrial and Management Engineering, Indian Institute of Technology, Kanpur, U.P. 208016, India ' Department of Industrial and Management Engineering, Indian Institute of Technology, Kanpur, U.P. 208016, India ' Department of Industrial and Management Engineering, Indian Institute of Technology, Kanpur, U.P. 208016, India

Abstract: Lower bound (LB) of weak formulation of single stage capacitated warehouse location problem (SSCWLP) has low strength when compared to that of the strong formulation. Hence, the overall computational time to solve the weak formulation of SSCWLP is very high. Strong formulation take lesser branch-and-bound (B&B) nodes to solve SSCWLP but at the cost of higher computational time for linear programming (LP) relaxation at each node. Thus a trade-off is required, leading to the hybrid formulation, containing better characteristics of strong and weak formulations. Most promising constraints are utilised to reduce computational effort. Extensive computational experiments show that significantly superior LB are obtained by hybrid formulation compared to those obtained from weak formulation while significantly less computational time is taken for solving the LP relaxation compared to that taken by strong formulation. The gain in reduction of computational time using reformulation outweighs the cost of expanding the earlier formulation.

Keywords: single stage capacitated warehouse; warehouse location; mixed integer programming; MIP; branch-and-bound; linear programming relaxation; branch-and-cut.

DOI: 10.1504/IJOR.2014.061767

International Journal of Operational Research, 2014 Vol.20 No.2, pp.156 - 179

Received: 11 Aug 2012
Accepted: 31 Oct 2012
Published online: 21 Jun 2014 *

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Title: Evaluating strong, weak and hybrid formulations of the single stage capacitated warehouse location problem

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